CN112464000A - Retrieval system - Google Patents

Abstract

The invention relates to a retrieval system comprising a retrieval interface capable of receiving user commands and m system objects SB displayed on said retrieval interface₁,SB₂,…,SB_mWherein the ith system object SB_iComprises n (i, j) different j-layer elements

j layer elements

The distribution of p (i,j, k) different j +1 layer elements

L_iAs the ith system object SB_iThe total number of contained element layers, each layer element of at least one layer of the system object is associated with a file, and further, the layer elements of all the layers can be picture elements or video elements.

Description

Retrieval system

Technical Field

The present invention relates to computing systems, and more particularly to a retrieval system.

Background

In the prior art, in the process of building various situations such as animation scenes, movie scenes, game scenes and the like, the use of a classified element retrieval system is a common method for improving the design efficiency in the field. However, in the element retrieval system in the prior art, a search manner based on words or entries (e.g. language descriptions of object names or object attributes and characteristics, etc. formulated by the retrieval system) is often used to find a required target object, and all elements in the retrieval system are usually displayed according to a tree structure, that is, the uppermost part is a root target element, the root target element is followed by a primary target element corresponding to the root target element (the primary target element can be regarded as a child element of the root target element), each primary target element is followed by a secondary target element corresponding to the primary target element (the secondary target element can also be regarded as a child element of the primary target element), and so on, or a multi-page display is used, each page displays N rows and M columns of elements: for example, patent document CN103853797A discloses a picture retrieval method that vectorizes a text input by a user, and retrieves a picture in an index of a text label according to the processing result; patent document CN107220299A discloses determining a keyword in a search command, searching a picture tag matching the keyword based on the keyword, and taking a picture corresponding to the picture tag as a search result; website addresshttp://www.nipic.com/、https://www.turbosquid.comAnd the like, discloses a method for searching picture elements based on search terms, wherein the picture elements are displayed in a multi-page display mode. This results in adoption of a target object that is not known to the user or is not easily described using languageOn the other hand, for the display mode using the tree structure, when there are many sub-elements of one target element, due to the limitation of the display space, the user can only view part of the sub-elements of one target element, and the user needs to scroll the scroll wheel left and right or up and down to view the rest of the sub-elements, or when the display mode using multiple pages is used, the user needs to manually page to find the required elements, which also affects the search speed of the user to a certain extent.

Disclosure of Invention

To solve the above technical problem, the present invention discloses a retrieval system including a retrieval interface capable of receiving a user command input by a command input device and m system objects SB displayed on the retrieval interface₁,SB₂,…,SB_mWherein the ith system object SB_iComprises n (i, j) different j-layer elements

j layer elements

P (i, j, k) different j +1 layer elements are distributed around

1≤i≤m，1≤j≤L_i-1，1≤k≤n(i,j)，p(i,j,k)≥0，L_iAs the ith system object SB_iTotal number of elemental layers included; each layer element of at least one layer of the system object is associated with a file; the user command at least comprises an amplification command and an acquisition command; the magnification command is executed for SB-ing the m system objects₁,SB₂,…,SB_mPerforming an amplification operation; the acquisition command is used for acquiring a file associated with the layer element as a retrieval result when executed; further, the layer elements of all layers may be picture elements (preferably vector picture elements) or video elements.

Further, the present inventionAlso disclosed is a non-transitory computer-readable storage medium storing a computer program executable by one or more processors of a computer device, the computer program, when executed by the one or more processors, presenting a retrieval interface, wherein the retrieval interface displays m system objects SB₁,SB₂,…,SB_mI th System object SB_iComprises n (i, j) different j-layer elements

j layer elements

P (i, j, k) different j +1 layer elements are distributed around

1≤i≤m，1≤j≤L_i-1，1≤k≤n(i,j)，p(i,j,k)≥0，L_iAs the ith system object SB_iTotal number of elemental layers included; each layer element of at least one layer of the system object is associated with a file; the retrieval interface can also receive user commands input by a command input device, wherein the user commands at least comprise an amplifying command and a obtaining command; the magnification command is executed for SB-ing the m system objects₁,SB₂,…,SB_mPerforming an amplification operation; the acquisition command is used for acquiring a file associated with the layer element as a retrieval result when executed; further, the layer elements of all layers may be picture elements (preferably vector picture elements) or video elements.

Finally, the invention also discloses a computer device comprising: a display, one or more processors, a memory for storing a computer program executable by the one or more processors, the computer program, when executed by the one or more processors, presenting a retrieval interface on a screen of the display, wherein the retrieval interface displays m system objects SB₁,SB₂,…,SB_mI th System object SB_iComprises n (i, j) different j-layer elements

j layer elements

P (i, j, k) different j +1 layer elements are distributed around

1≤i≤m，1≤j≤L_i-1，1≤k≤n(i,j)，p(i,j,k)≥0，L_iAs the ith system object SB_iTotal number of elemental layers included; each layer element of at least one layer of the system object is associated with a file; the retrieval interface can also receive user commands input by a command input device, wherein the user commands at least comprise an amplifying command and a obtaining command; the magnification command is executed for SB-ing the m system objects₁,SB₂,…,SB_mPerforming an amplification operation; the acquisition command is used for acquiring a file associated with the layer element as a retrieval result when executed; further, the layer elements of all layers may be picture elements (preferably vector picture elements) or video elements.

Drawings

FIG. 1 is a schematic diagram of one embodiment of a retrieval system of the present invention;

FIG. 2 is a diagram illustrating the content of two system objects with different layer element shapes displayed on a retrieval interface;

FIG. 3 is an embodiment of the present invention in which the lower layer elements are uniformly arranged around the upper layer elements;

FIG. 4 is another embodiment of the present invention in which the lower layer elements are uniformly arranged around the upper layer elements.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. This description is made by way of example and not limitation to specific embodiments consistent with the principles of the invention, the description being in sufficient detail to enable those skilled in the art to practice the invention, other embodiments may be utilized and the structure of various elements may be changed and/or substituted without departing from the scope and spirit of the invention. The following detailed description is, therefore, not to be taken in a limiting sense.

The invention discloses a retrieval system, according to the invention, the retrieval system can be designed into any format convenient for users to use, for example, in one embodiment, the retrieval system can be designed into a retrieval system of a webpage version (such as a web format) so as to be convenient for users to call the retrieval system; in another embodiment, the retrieval system can be designed to be integrated in other software as a plug-in so as to call the retrieval system in other software; in a further embodiment of the invention, the retrieval system may be designed as a client version of the retrieval software, i.e. the retrieval software is compatible with the user's mobile communication terminal, so that the user uses the retrieval software at the mobile terminal. And those skilled in the art can understand that the mobile communication terminal can be a communication terminal with various operating systems, for example, the operating system can be a Windows operating system, an android operating system or an apple operating system, and the mobile communication terminal can be a mobile phone, a PAD or a computer, etc.

The invention discloses a retrieval system, and FIG. 1 is a schematic diagram of an embodiment of the retrieval system. In fig. 1, the retrieval system 1 includes a retrieval interface 2 capable of receiving a user command and m system objects SB displayed on the retrieval interface 2₁,SB₂,…,SB_m. According to the invention, the m system objects SB₁,SB₂,…,SB_mMay be different types of system objects, and in one embodiment of the present invention, when m is 5, the m system objects may include: the vehicle class system object 21, the scene class system object 22, the character class system object 23, the plane graphic class system object 24, and the solid geometry class system object 25, and those skilled in the art will appreciate that the above examples are merely illustrativeBy way of illustrative example, and not as a sole example of the scope of the invention as claimed.

According to the invention, the ith system object SB_iComprises n (i, j) different j-layer elements

1≤i≤m，1≤j≤L_i-1，L_iAs the ith system object SB_iTotal number of layers of elements contained, wherein, j layers of elements

P (i, j, k) different j +1 layer elements are distributed around

K is more than or equal to 1 and less than or equal to n (i, j), and p (i, j, k) is more than or equal to 0. According to the invention, p (i, j, k) has a value in the range [0,20 ]]More preferably 12. As shown in fig. 1, the 5 system objects displayed by the search interface 2 respectively include 1- layer elements 31, 32, 33, 34, and 35, and 331, 332, 333, 334, and 335 are distributed around the 1-layer element 33, for a total of 5 2-layer elements.

According to the present invention, the layer elements of all layers may be picture elements or video elements. By displaying the layer elements of different element layers in visual elements (such as pictures and videos), a user can intuitively find needed content according to the displayed content (such as shapes and other obvious characteristics) of the elements. Further, in one embodiment of the present invention, the layer elements of all layers may be square, in which case the square side length dimension B of the j layer elements_jAnd a square side length dimension B of j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1I.e. any one of the j layer elements

Has a side length equal to the j layer element

Corresponding p (i, j, k) different j +1 layer elements

Q times the side length of any one of the j +1 layer elements; in another embodiment of the present invention, the layer elements of all layers may be circular and the circular diameter dimension B of the j layer elements_jAnd a circular diameter dimension B of the j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1I.e. any one of the j layer elements

Has a diameter of the same size as that of the j layer element

Corresponding p (i, j, k) different j +1 layer elements

Q times the diameter size of any one of the j +1 layer elements. And those skilled in the art will appreciate that the layer elements of all layers may also be provided in other shapes, such as oval, square rounded chamfered, etc. to organize the different layer elements. According to the invention, q has a value in the range [3,7 ]]Preferably, 3, at this time, by setting the side length size relationship between the upper layer element and the lower layer element, p (i, j, k) lower layer elements can be made to surround the periphery of the upper layer element, and at this time, the user can view all the lower layer elements at one time, thereby improving the search efficiency.

According to the invention, the retrieval interface displays m system objects SB₁,SB₂,…,SB_mThen, the ith system object SB_iAny of the j-layer elements of (a) and (b)_iOther j-layer elements, j + 1-layer elements corresponding to said other j-layer elements to L_iLayer elements, j +1 layer elements to L corresponding to any one of the j layer elements_iThe contents presented by the layer elements are not overlapped, as shown in fig. 2, fig. 2 is the contents presented by the two system objects with different layer element shapes when displayed on the retrieval interface, at this time, all the layer elements of each system object can be displayed without being blocked, and the user can conveniently and quickly find the required elements. Specifically, in the present invention, theThe p (i, j, k) j +1 layer elements are arranged according to a preset arrangement mode

) Elements arranged in the j layers

For four weeks, in a preferred embodiment of the present invention, the p (i, j, k) lower layer elements are

Uniformly arranged on the upper layer element

As shown in fig. 3 and 4, fig. 3 shows an embodiment of the present invention in which the lower layer elements are uniformly arranged around the upper layer elements, and fig. 4 shows another embodiment of the present invention in which the lower layer elements are uniformly arranged around the upper layer elements, for example, in one embodiment, when j layers of elements are uniformly arranged

When circular, j layers of elements

Corresponding p (i, j, k) j +1 layer elements

Is circular, and p (i, j, k) j +1 layer elements

Are distributed at equal intervals in j layers

The circle center is the circle center and the radius is

At this time, in order to allow all the layer elements to be completely displayed, w and q satisfy the following relationship:

for example, on the premise that p (i, j, k) is 12, when q is 3, w is 5, and when q is 5, w is 3, as shown in fig. 4; in another embodiment, when j layers of elements

When square, j layers of elements

Corresponding p (i, j, k) j +1 layer elements

Is square, and p (i, j, k) j +1 layer elements

The symmetric centers of the two layers are distributed at equal intervals in the j layer elements

The symmetric center is the symmetric center, and the side length is B_j+(w-1)B_j+1One side length and j layers of elements

In order to allow all layer elements to be fully displayed, w and q satisfy the following relationship:

as shown in fig. 3; on the premise that p (i, j, k) is 12, q and w may take the following values: q is 3, w is 5 or q is 5, w is 3.

According to the present invention, the layer elements of all layers may be picture elements in any format, such as gif format, jpg format, etc., and further, the picture is preferably a vector picture to reduce image distortion caused by the layer elements when being enlarged. Further, according to the present invention, when any layer element is enlarged, the distortion of the picture or video caused by the enlarging operation can be reduced by adopting the enlarging method commonly used in the art.

According to the invention, said m can be customized to update the content of the retrieval system 1. Preferably, m is in the range of [2, Fm]Wherein, in the step (A),

P_Xfor the transverse dimension of the screen of the device on which the retrieval system is to be operated, P_YTo run the longitudinal dimensions of the device screen of the retrieval system,

represents 2. P_XAnd 7. B₁The ratio of (a) is rounded down,

represents 2. P_YAnd 7. B₁Is rounded down by the ratio of (A), (B)₁Is the square side length dimension or the circular diameter dimension of any one 1-layer element. In the present invention, P_X、P_Y、B₁The unit of (2) is the same, and can be a physical size or the number of pixels. Further, when the number of the pixel points is adopted, the number B₁Has a value range of [800,1800 ]]Preferably 1200, at least so that all layer 1 elements in the system object can be clearly displayed by the retrieval system.

Specifically, in the present invention, the above

And

customizable settings, e.g., settings can be made

In order to represent a picture of a vehicle,

are pictures respectively representing automobiles, airplanes, ships, etc. And those skilled in the art can know that the layer elements and the number of the layer elements of different layers can be set by self-definition, for example, when

When the picture is a picture representing a vehicle, the picture is

The number of layer elements and the number of the layer elements can be set in a self-defined mode for pictures respectively representing ancient times, modern times, future times and the like, retrieval elements can be conveniently arranged, and then target elements can be quickly found.

According to the invention, each layer element of at least one layer of the system object is associated with a document, in a preferred embodiment each layer element of all element layers of the system object is associated with a document, in another preferred embodiment each layer element of the lowest layer of the system object is associated with a document. According to the invention, the retrieval system 1 can provide the m system objects SB according to the user command inputted by the command input device in the retrieval interface 2₁,SB₂,…,SB_mOperate to control the m system objects SB₁,SB₂,…,SB_mThe contents displayed in the search interface 2. In the present invention, the user command at least includes an enlargement command and an acquisition command; the magnification command is executed for SB-ing the m system objects₁,SB₂,…,SB_mPerforming an amplification operation; when the obtaining command is executed, the obtaining command is used to obtain a file associated with a layer element, as a retrieval result, for example, for a webpage version or a client version of a retrieval system, when the obtaining command is executed (i.e., when one layer element is dragged on the retrieval interface), the file associated with the one layer element (e.g., a 3D format file, etc.) is obtained as a retrieval result. At this time, the user can directly drag the file corresponding to the picture or the video to other software (for example, 3d max software) by dragging the picture element or the video element, which is convenient for software design of the target scene, and improves the retrieval systemConvenience of system use; and the user commands may also comprise other types of commands to facilitate the user's use of the retrieval system 1, as will be appreciated by those skilled in the art. Further, the command input device may be a command input device commonly used in the art, such as a mouse, a touch keyboard, a game pad, and the like.

According to the invention, the retrieval system which takes the visual elements such as pictures, videos and the like as basic retrieval elements is constructed by arranging the system objects which comprise a plurality of element layers and are of a plurality of types, wherein the layer elements of different element layers surround the corresponding upper layer elements according to the preset rules, and the retrieval system can display a plurality of sub-elements simultaneously, so that a user can intuitively search a required target object, and the searching time of the target object with high language description difficulty is reduced.

According to an embodiment of the present invention, the retrieval interface 2 displays the m system objects SB₁,SB₂,…,SB_mWhen F is in_jThe enlarged j-layer element is greater than or equal to a first threshold value

If the current display range of the retrieval interface is within the range, displaying the enlarged j-layer elements

Otherwise, the magnified j-layer elements are not displayed

Wherein, F_j＝G*B_jG is the current display magnification value of the retrieval interface, B_jIs a j layer element

The square side length dimension or the circular diameter dimension of (a). As can be understood by those skilled in the art, the current display range of the retrieval interface is a set of contents which can be currently displayed by the retrieval interface, and under the condition that the retrieval interface is fixed and unchanged, when the displayed contents in the retrieval interface are enlarged, the retrieval interface is used for displaying the contents in the retrieval interfaceThe displayable content of the surface may change accordingly, for example, a search interface displays two objects (at this time, the current display range of the search interface is two objects), and when the user inputs an enlargement command to enlarge the two objects to a certain extent, the content displayed by the search interface is any one of the two objects (at this time, the current display range is any one of the two objects).

Specifically, in the present invention, the value range of the current display amplification value G of the search interface is G > 0. When G is equal to 1, the search interface 2 displays the elements in different layers according to the original sizes of the elements, that is, when the search system 1 is started, m system objects displayed by the search interface 2 correspond to the content displayed by the search interface 2 when G is equal to 1; when G <1, the different layer elements are displayed in a reduced size, at which time, since G <1, the operation result of the zoom-in command is that the different layer elements are proportionally reduced; when G >1, then the different layer elements are displayed in the enlarged size.

According to the invention, the value of the first threshold is B₁/q^uSo that each of the m system objects has at least one layer element of (u +1) element layers displayed in the retrieval interface 2 when the retrieval system 1 is started, wherein the value range of u is [1,3 ]]And preferably 2. By adopting a multi-element layer display mode, a user can select a required target element across element layers under the condition of skillfully operating the retrieval system 1, so that the retrieval efficiency is improved, for example, when 3 element layers are displayed, the user can directly click to select a layer element on the 3 rd element layer.

According to the invention, when the retrieval system 1 receives a zoom-in command input by a user, the following method is executed:

step 100, obtaining a current display amplification value G of the retrieval interface according to the amplification command, and calculating j-layer elements according to the current display amplification value G

Enlarged display size F_j＝G*B_j，1≤i≤m，1≤j≤L_iAnd k is more than or equal to 1 and less than or equal to n (i, j). Specifically, in the present invention, the display zoom-in value G may be obtained according to a preset input device zoom-in range mapping table according to a scroll direction and a scroll range of the input device, or a touch direction and a touch sliding range. Specifically, the input device amplification degree mapping table may be a mapping table including an input device type, a sliding direction, a sliding degree, a display amplification value, and the like; the display amplification value G can also be a function of the type of the input device, the sliding direction and the sliding amplitude; the input device type may be, for example, a mouse, a touch keyboard, a game pad, or the like, and the sliding direction may be a preset sliding direction corresponding to the input device type, for example, a sliding direction defined by the retrieval system 1, such as up, down, left, or right. And those skilled in the art will understand that there are many other ways to preset the sliding direction, and the above examples are not intended to be the only examples to limit the scope of the present invention. According to the present invention, the zoom-in command may further include a single-click or double-click instruction of the layer element by the user, and specifically, in the present invention, the display zoom-in value G may be obtained according to a preset single-click or double-click instruction and a mapping table of display zoom-in values G, where G ═ f (q), for example, G ═ q. According to the present invention, the retrieval system 1 acquires the enlarged display sizes of the layer elements of different layers of the m system objects, respectively, upon receiving an enlargement command input from a command input device.

200, combining j-layer elements according to the position information add of the command input equipment in the display range of the retrieval interface before the amplification command is input

Enlarged display size F_jAnd determining the current display range of the retrieval interface. Specifically, in the present invention, the position information add of the command input device in the display range of the search interface before the zoom-in command is input may be represented in a coordinate manner, and those skilled in the art may know that the position information add may also be represented in other manners commonly used in the art. According to the invention, canDetermining layer elements H of v element layers displayed by the retrieval interface and closest to the add within the display range in the retrieval interface, and combining j layer elements by taking the layer elements H as the center

Enlarged display size F_jAnd determining the current display range of the retrieval interface after receiving the magnification command. According to the present invention, when the search system 1 is started, it is considered that the currently displayed interface of the search interface displays all m system objects, and when G is 1, the first threshold value is B₁/q²When F is satisfied by the layer elements in the three object layers of each system object_jThe number of the j layer elements is more than or equal to a first threshold value

A condition located in a current display range of the search interface, and therefore, when the search system 1 is started, m system objects are displayed, and each system object has a layer element of 3 element layers displayed. Thereafter, the search system 1 captures the pre-magnification position information of the command input device in the search system to determine the display range of the search interface after magnification, for example, when the search system 1 captures the position of the command input device and the 3 rd layer element of the 2 nd element layer of the 1 st system object displayed in the search interface 2

If the positions coincide, the retrieval system 1 uses the layer element

And determining the enlarged display range according to the enlarged size of each layer element for displaying the center.

Step 300, if F_jThe enlarged j-layer element is greater than or equal to a first threshold value

If the current display range of the retrieval interface is within the range, the display is displayedLarge rear j layer elements

Otherwise, the magnified j-layer elements are not displayed

Wherein, F_j＝G*B_jG is the current display magnification value of the retrieval interface, B_jIs a j layer element

The square side length dimension or the circular diameter dimension of (a). According to the invention, when the received user command is a zoom-in command, the content displayed in the retrieval interface 2 before zooming in can be zoomed in according to the zoom-in amplitude of the zoom-in command, the content display range in the retrieval interface before zooming in and the position information of the input device in the retrieval interface before zooming in, wherein the new content display range after zooming in can be calculated according to the zoom-in amplitude of the user command and the content display range before zooming in according to a certain rule, and the content displayed in the new content display range is determined by combining the obtained position information of the command input device. For example, a mouse wheel magnification method similar to an electronic map (e.g., google map, etc.) may be employed for magnification.

Further, the present invention also discloses a non-transitory computer readable storage medium storing a computer program executable by one or more processors of a computer device, the computer program, when executed by the one or more processors, presenting a retrieval interface, wherein the retrieval interface displays m system objects SB₁,SB₂,…,SB_mI th System object SB_iComprises n (i, j) different j-layer elements

j layer elements

P (i, j, k) different j +1 layer elements are distributed around

1≤i≤m，1≤j≤L_i-1，1≤k≤n(i,j)，p(i,j,k)≥0，L_iAs the ith system object SB_iTotal number of elemental layers included; each layer element of at least one layer of the system object is associated with a file; the retrieval interface can also receive user commands input by a command input device, wherein the user commands at least comprise an amplifying command and a obtaining command; the magnification command is executed for SB-ing the m system objects₁,SB₂,…,SB_mPerforming an amplification operation; the acquisition command is used for acquiring a file associated with the layer element as a retrieval result when executed; further, the layer elements of all layers may be picture elements (preferably vector picture elements) or video elements. Specifically, according to the present invention, each layer element of at least one layer of the system object is associated with a file, in a preferred embodiment, each layer element of all element layers of the system object is associated with a file, and in another preferred embodiment, each layer element of the lowest layer of the system object is associated with a file. According to the present invention, the search interface is displayed on a screen of a display of the computer device (the screen of the display of the computer device may be simply referred to as a device screen).

Further, in accordance with an embodiment of the present invention, the

And

customizable settings, e.g., settings can be made

In order to represent a picture of a vehicle,

which are pictures respectively showing an automobile, an airplane, a ship, etc. And those skilled in the art can know that the layer elements and the number of the layer elements of different layers can be set by self-definition, for example, when

When the picture is a picture representing a vehicle, the picture is

The number of layer elements and the number of the layer elements can be set in a self-defined mode for pictures respectively representing ancient times, modern times, future times and the like, retrieval elements can be conveniently arranged, and then target elements can be quickly found.

According to one embodiment of the invention, the layer elements of all layers are square and the square side length dimension B of the j layer elements_jAnd a square side length dimension B of j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1Wherein the value range of q is [3,7 ]](ii) a Alternatively, the layer elements of all layers may be circular and the circular diameter dimension B of the j layer elements_jAnd a circular diameter dimension B of the j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1Wherein the value range of q is [3,7 ]]。

According to one embodiment of the invention, the retrieval interface displays m system objects SB₁,SB₂,…,SB_mThen, the ith system object SB_iAny of the j-layer elements of (a) and (b)_iOther j-layer elements, j + 1-layer elements corresponding to said other j-layer elements to L_iLayer elements, j +1 layer elements to L corresponding to any one of the j layer elements_iThe contents of the layer element presentation are not superimposed. Specifically, in the present invention, the p (i, j, k) j +1 layer elements may be arranged in a preset arrangement manner

) Elements arranged in the j layers

All aroundIn a preferred embodiment of the present invention, the p (i, j, k) lower layer elements are combined

Uniformly arranged on the upper layer element

For example, fig. 3 shows an embodiment of the present invention in which the lower layer elements are uniformly arranged around the upper layer elements, fig. 4 shows another embodiment of the present invention in which the lower layer elements are uniformly arranged around the upper layer elements, and in one embodiment, when the j layer elements are uniformly arranged

When circular, j layers of elements

Corresponding p (i, j, k) j +1 layer elements

Is circular, and p (i, j, k) j +1 layer elements

Are distributed at equal intervals in j layers

The circle center is the circle center and the radius is

At this time, in order to allow all the layer elements to be completely displayed, w and q satisfy the following relationship:

for example, on the premise that p (i, j, k) is 12, when q is 3, w is 5, and when q is 5, w is 3, as shown in fig. 4; in another embodiment, when j layers of elements

When square, j layers of elements

Corresponding p (i, j, k) j +1 layer elements

Is square, and p (i, j, k) j +1 layer elements

The symmetric centers of the two layers are distributed at equal intervals in the j layer elements

The symmetric center is the symmetric center, and the side length is B_j+(w-1)B_j+1One side length and j layers of elements

In order to allow all layer elements to be fully displayed, w and q satisfy the following relationship:

according to one embodiment of the invention, the value range of m is set to [2, Fm]Wherein, in the step (A),

P_Xfor the transverse dimension of the screen of the device on which the retrieval system is to be operated, P_YTo run the longitudinal dimensions of the device screen of the retrieval system,

represents 2. P_XAnd 7. B₁The ratio of (a) is rounded down,

represents 2. P_YAnd 7. B₁Is rounded down by the ratio of (A), (B)₁Side length of square or straight circle of any 1-layer elementThe diameter size. Wherein, B₁Has a value range of [800 pixels, 1800 pixels ]]Preferably 1200 pixels.

According to one embodiment of the invention, the retrieval interface displays the m system objects SB₁,SB₂,…,SB_mWhen F is in_jThe enlarged j-layer element is greater than or equal to a first threshold value

If the current display range of the retrieval interface is within the range, displaying the enlarged j-layer elements

Otherwise, the magnified j-layer elements are not displayed

Wherein, F_j＝G*B_jAnd G is the current display amplification value of the retrieval interface. Specifically, in this embodiment, when a zoom-in command input by the user is received, the following method is performed:

step 100, obtaining a current display amplification value G of the retrieval interface according to the amplification command, and calculating j-layer elements according to the current display amplification value G

Enlarged display size F_j＝G*B_j，1≤i≤m，1≤j≤L_i，1≤k≤n(i,j)。

200, combining j-layer elements according to the position information add of the command input equipment in the display range of the retrieval interface before the amplification command is input

Enlarged display size F_jAnd determining the current display range of the retrieval interface.

Step 300, if F_jThe enlarged j-layer element is greater than or equal to a first threshold value

If the current display range of the retrieval interface is within the range, displaying the enlarged j-layer elements

Otherwise, the magnified j-layer elements are not displayed

Wherein, F_j＝G*B_jG is the current display magnification value of the retrieval interface, B_jIs a j layer element

The square side length dimension or the circular diameter dimension of (a).

The invention also discloses a computer device, comprising: a display, one or more processors, a memory, wherein the memory stores a computer readable program executable by the one or more processors, which when executed by the one or more processors presents a retrieval interface on a screen of the display (the screen of the display may be referred to simply as a device screen), wherein the retrieval interface displays m system objects SB₁,SB₂,…,SB_mI th System object SB_iComprises n (i, j) different j-layer elements

j layer elements

P (i, j, k) different j +1 layer elements are distributed around

1≤i≤m，1≤j≤L_i-1，1≤k≤n(i,j)，p(i,j,k)≥0，L_iAs the ith system object SB_iTotal number of elemental layers included; each layer element of at least one layer of the system object is associated with a file; the retrieval interface can also receive commands input by the command input deviceA user command, wherein the user command at least comprises an amplification command and an acquisition command; the magnification command is executed for SB-ing the m system objects₁,SB₂,…,SB_mPerforming an amplification operation; the acquisition command is used for acquiring a file associated with the layer element as a retrieval result when executed; further, the layer elements of all layers may be picture elements (preferably vector picture elements) or video elements. Specifically, according to the present invention, each layer element of at least one layer of the system object is associated with a file, in a preferred embodiment, each layer element of all element layers of the system object is associated with a file, and in another preferred embodiment, each layer element of the lowest layer of the system object is associated with a file.

Further, in accordance with an embodiment of the present invention, the

And

customizable settings, e.g., settings can be made

In order to represent a picture of a vehicle,

which are pictures respectively showing an automobile, an airplane, a ship, etc. And those skilled in the art can know that the layer elements and the number of the layer elements of different layers can be set by self-definition, for example, when

When the picture is a picture representing a vehicle, the picture is

The method can also be used for setting layer elements and the number of the layer elements in a self-defined mode for pictures respectively representing ancient times, modern times, future times and the like, conveniently arranging retrieval elements and further quickly arranging retrieval elementsThe target element is found.

According to one embodiment of the invention, the layer elements of all layers are square and the square side length dimension B of the j layer elements_jAnd a square side length dimension B of j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1Wherein the value range of q is [3,7 ]](ii) a Alternatively, the layer elements of all layers may be circular and the circular diameter dimension B of the j layer elements_jAnd a circular diameter dimension B of the j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1Wherein the value range of q is [3,7 ]]。

According to one embodiment of the invention, the retrieval interface displays m system objects SB₁,SB₂,…,SB_mThen, the ith system object SB_iAny of the j-layer elements of (a) and (b)_iOther j-layer elements, j + 1-layer elements corresponding to said other j-layer elements to L_iLayer elements, j +1 layer elements to L corresponding to any one of the j layer elements_iThe contents of the layer element presentation are not superimposed. Specifically, in the present invention, the p (i, j, k) j +1 layer elements may be arranged in a preset arrangement manner

) Elements arranged in the j layers

For four weeks, in a preferred embodiment of the present invention, the p (i, j, k) lower layer elements are

Uniformly arranged on the upper layer element

For example, fig. 3 shows an embodiment of the present invention in which the lower layer elements are uniformly arranged around the upper layer elements, fig. 4 shows another embodiment of the present invention in which the lower layer elements are uniformly arranged around the upper layer elements, and in one embodiment, when the j layer elements are uniformly arranged

When circular, j layers of elements

Corresponding p (i, j, k) j +1 layer elements

Is circular, and p (i, j, k) j +1 layer elements

Are distributed at equal intervals in j layers

The circle center is the circle center and the radius is

At this time, in order to allow all the layer elements to be completely displayed, w and q satisfy the following relationship:

for example, on the premise that p (i, j, k) is 12, when q is 3, w is 5, and when q is 5, w is 3, as shown in fig. 4; in another embodiment, when j layers of elements

When square, j layers of elements

Corresponding p (i, j, k) j +1 layer elements

Is square, and p (i, j, k) j +1 layer elements

The symmetric centers of the two layers are distributed at equal intervals in the j layer elements

The symmetric center is the symmetric center, and the side length is B_j+(w-1)B_j+1One side length and j layers of elements

In order to allow all layer elements to be fully displayed, w and q satisfy the following relationship:

according to one embodiment of the invention, the value range of m is set to [2, Fm]Wherein, in the step (A),

P_Xfor the transverse dimension of the screen of the device on which the retrieval system is to be operated, P_YTo run the longitudinal dimensions of the device screen of the retrieval system,

represents 2. P_XAnd 7. B₁The ratio of (a) is rounded down,

represents 2. P_YAnd 7. B₁Is rounded down by the ratio of (A), (B)₁Is the square side length dimension or the circular diameter dimension of any one 1-layer element. Wherein, B₁Has a value range of [800 pixels, 1800 pixels ]]Preferably 1200 pixels.

According to one embodiment of the invention, the retrieval interface displays the m system objects SB₁,SB₂,…,SB_mWhen F is in_jThe enlarged j-layer element is greater than or equal to a first threshold value

If the current display range of the retrieval interface is within the range, displaying the enlarged j-layer elements

Otherwise, the magnified j-layer elements are not displayed

Wherein, F_j＝G*B_jAnd G is the current display amplification value of the retrieval interface. Specifically, in this embodiment, when a zoom-in command input by the user is received, the following method is performed:

step 100, obtaining a current display amplification value G of the retrieval interface according to the amplification command, and calculating j-layer elements according to the current display amplification value G

Enlarged display size F_j＝G*B_j，1≤i≤m，1≤j≤L_i，1≤k≤n(i,j)。

200, combining j-layer elements according to the position information add of the command input equipment in the display range of the retrieval interface before the amplification command is input

Enlarged display size F_jAnd determining the current display range of the retrieval interface.

Step 300, if F_jThe enlarged j-layer element is greater than or equal to a first threshold value

If the current display range of the retrieval interface is within the range, displaying the enlarged j-layer elements

Otherwise, the magnified j-layer elements are not displayed

Wherein, F_j＝G*B_jG is the current display magnification value of the retrieval interface, B_jIs a j layer element

The square side length dimension or the circular diameter dimension of (a).

Moreover, other implementations of the invention will be apparent to those skilled in the art from consideration of the specification of the invention disclosed herein. The embodiments and/or aspects of the embodiments can be used in the systems and methods of the present invention alone or in any combination. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the invention being indicated by the following claims.

Claims (20)

1. A retrieval system, characterized in that the retrieval system comprises a retrieval interface capable of receiving a user command input by a command input device and m system objects SB displayed on the retrieval interface₁,SB₂,…,SB_mWherein the ith system object SB_iComprises n (i, j) different j-layer elements

j layer elements

P (i, j, k) different j +1 layer elements are distributed around

1≤i≤m，1≤j≤L_i-1，1≤k≤n(i,j)，p(i,j,k)≥0，L_iAs the ith system object SB_iTotal number of elemental layers included; each layer element of at least one layer of the system object is associated with a file;

the user command at least comprises an amplification command and an acquisition command; the magnification command is executed for SB-ing the m system objects₁,SB₂,…,SB_mPerforming an amplification operation; the acquisition command is used for acquiring a file associated with the layer element as a retrieval result when executed;

further, the layer elements of all layers may be picture elements (preferably vector picture elements) or video elements.

2. The system according to claim 1, wherein the search interface displays m system objects SB₁,SB₂,…,SB_mThen, the ith system object SB_iAny of the j-layer elements of (a) and (b)_iOther j-layer elements, j + 1-layer elements corresponding to said other j-layer elements to L_iLayer elements, j +1 layer elements to L corresponding to any one of the j layer elements_iThe contents of the layer element presentation are not superimposed.

3. Retrieval system according to claim 2, characterised in that the layer elements of all layers can be squares and the square side length dimension B of the j layer elements_jAnd a square side length dimension B of j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1Wherein the value range of q is [3,7 ]]。

4. The retrieval system of claim 3, wherein p (i, j, k) j +1 level elements

The symmetric centers of the two layers are distributed at equal intervals in the j layer elements

The symmetric center is the symmetric center, and the side length is B_j+(w-1)B_j+1One side length and j layers of elements

Wherein w and q satisfy the following relationship:

5. retrieval system according to claim 2, characterised in that the level elements of all levelsThe elements may be circular and the circular diameter dimension B of the j layer elements_jAnd a circular diameter dimension B of the j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1Wherein the value range of q is [3,7 ]]。

6. The retrieval system of claim 5, wherein p (i, j, k) j +1 level elements

Are distributed at equal intervals in j layers

The circle center is the circle center and the radius is

On the circumference of a circle of (a), wherein w and q satisfy the following relationship:

7. the retrieval system of claim 3 or 5, wherein m has a value in the range of [2, Fm [ ]]Wherein, in the step (A),

P_Xfor the transverse dimension of the screen of the device on which the retrieval system is to be operated, P_YTo run the longitudinal dimensions of the device screen of the retrieval system,

represents 2. P_XAnd 7. B₁The ratio of (a) is rounded down,

represents 2. P_YAnd 7. B₁Is rounded down by the ratio of (A), (B)₁Side length dimension of square of any 1-layer elementOr a circular diameter dimension.

8. The retrieval system of claim 7, wherein B is₁Has a value range of [800 pixels, 1800 pixels ]]Preferably 1200 pixels.

9. The retrieval system of claim 3 or 5, wherein the retrieval interface displays the m system objects SB₁,SB₂,…,SB_mWhen F is in_jThe enlarged j-layer element is greater than or equal to a first threshold value

If the current display range of the retrieval interface is within the range, displaying the enlarged j-layer elements

Otherwise, the magnified j-layer elements are not displayed

Wherein, F_j＝G*B_jAnd G is the current display amplification value of the retrieval interface.

10. The retrieval system of claim 9, where the first threshold value takes the value B₁/q²。

11. A non-transitory computer readable storage medium storing a computer program executable by one or more processors of a computer device, the computer program when executed by the one or more processors presenting a retrieval interface, wherein the retrieval interface displays m system objects SB₁,SB₂,…,SB_mI th System object SB_iComprises n (i, j) different j-layer elements

j layer elements

P (i, j, k) different j +1 layer elements are distributed around

1≤i≤m，1≤j≤L_i-1，1≤k≤n(i,j)，p(i,j,k)≥0，L_iAs the ith system object SB_iTotal number of elemental layers included; each layer element of at least one layer of the system object is associated with a file;

the retrieval interface can also receive user commands input by a command input device, wherein the user commands at least comprise an amplifying command and a obtaining command; the magnification command is executed for SB-ing the m system objects₁,SB₂,…,SB_mPerforming an amplification operation; the acquisition command is used for acquiring a file associated with the layer element as a retrieval result when executed;

further, the layer elements of all layers may be picture elements (preferably vector picture elements) or video elements.

12. The non-transitory computer readable storage medium of claim 11, wherein the layer elements of all layers are squares, and the square side dimension B of a j layer element_jAnd a square side length dimension B of j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1Wherein the value range of q is [3,7 ]]。

13. The non-transitory computer readable storage medium of claim 11, wherein the layer elements of all layers may be circular, and the circular diameter dimension B of the j layer elements_jAnd a circular diameter dimension B of the j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1Wherein the value range of q is [3,7 ]]。

14. The non-transitory computer readable storage medium of claim 12, wherein p (i, j, k) j +1 layer elements

The symmetric centers of the two layers are distributed at equal intervals in the j layer elements

The symmetric center is the symmetric center, and the side length is B_j+(w-1)B_j+1One side length and j layers of elements

Wherein w and q satisfy the following relationship:

15. the non-transitory computer readable storage medium of claim 13, wherein p (i, j, k) j +1 layer elements

Are distributed at equal intervals in j layers

The circle center is the circle center and the radius is

On the circumference of a circle of (a), wherein w and q satisfy the following relationship:

16. the non-transitory computer-readable storage medium according to claim 12 or 13, wherein the non-transitory computer-readable storage medium is a non-transitory computer-readable storage mediumIn that m has a value range of [2, Fm]Wherein, in the step (A),

P_Xfor the transverse dimension of the screen of the device on which the retrieval system is to be operated, P_YTo run the longitudinal dimensions of the device screen of the retrieval system,

represents 2. P_XAnd 7. B₁The ratio of (a) is rounded down,

represents 2. P_YAnd 7. B₁Is rounded down by the ratio of (A), (B)₁Is the square side length dimension or the circular diameter dimension of any one 1-layer element.

17. The non-transitory computer-readable storage medium according to claim 12 or 13, wherein the retrieval interface displays the m system objects SB₁,SB₂,…,SB_mWhen F is in_jThe enlarged j-layer element is greater than or equal to a first threshold value

If the current display range of the retrieval interface is within the range, displaying the enlarged j-layer elements

Otherwise, the magnified j-layer elements are not displayed

Wherein, F_j＝G*B_jAnd G is the current display amplification value of the retrieval interface.

18. A computer device, comprising: display, one or more processors, memory for storing a display programA computer program executed by the one or more processors that, when executed by the one or more processors, presents a retrieval interface on the screen of the display, wherein the retrieval interface displays m system objects SB₁,SB₂,…,SB_mI th System object SB_iComprises n (i, j) different j-layer elements

j layer elements

P (i, j, k) different j +1 layer elements are distributed around

1≤i≤m，1≤j≤L_i-1，1≤k≤n(i,j)，p(i,j,k)≥0，L_iAs the ith system object SB_iTotal number of elemental layers included; each layer element of at least one layer of the system object is associated with a file;

the retrieval interface can also receive user commands input by a command input device, wherein the user commands at least comprise an amplifying command and a obtaining command; the magnification command is executed for SB-ing the m system objects₁,SB₂,…,SB_mPerforming an amplification operation; the acquisition command is used for acquiring a file associated with the layer element as a retrieval result when executed;

further, the layer elements of all layers may be picture elements (preferably vector picture elements) or video elements.

19. The computer device of claim 18, wherein the search interface displays m system objects SB₁,SB₂,…,SB_mThen, the ith system object SB_iAny of the j-layer elements of (a) and (b)_iOther j-layer elements, j + 1-layer elements corresponding to said other j-layer elements to L_iLayer element, any ofj +1 layer elements to L corresponding to j layer elements_iThe contents of the layer element presentation are not superimposed.

20. The computer device of claim 19, wherein the layer elements of all layers are square, and the square side dimension B of a j layer element_jAnd a square side length dimension B of j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1Wherein the value range of q is [3,7 ]](ii) a Alternatively, the layer elements of all layers may be circular and the circular diameter dimension B of the j layer elements_jAnd a circular diameter dimension B of the j +1 layer elements_j+1The following relationship is satisfied: b is_j＝q·B_j+1Wherein the value range of q is [3,7 ]]。

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